CN112776713A

CN112776713A - Vehicle, sound control device, and computer-readable non-transitory recording medium

Info

Publication number: CN112776713A
Application number: CN202011206791.5A
Authority: CN
Inventors: 佐佐木章
Original assignee: Toyota Motor Corp
Current assignee: Toyota Motor Corp
Priority date: 2019-11-07
Filing date: 2020-11-03
Publication date: 2021-05-11
Also published as: JP7268581B2; US20210138958A1; US11214193B2; JP2021077029A

Abstract

The invention provides a vehicle, an acoustic control device, and a computer-readable non-transitory recording medium, which enable a driver of the vehicle to recognize the type of a detection target object approaching the vehicle. The vehicle of the present disclosure includes a processor having hardware, the processor determining a type of a detection object approaching the vehicle, determining whether the detection object is within a predetermined range around the vehicle, and controlling output of a sound corresponding to the type of the detection object when the detection object is within the predetermined range around the vehicle.

Description

Vehicle, sound control device, and computer-readable non-transitory recording medium

Technical Field

The present disclosure relates to a vehicle, an acoustic control device, and a computer-readable non-transitory recording medium.

Background

Patent document 1 proposes a system that, when it is detected that a detection target object approaches a vehicle from the front-rear left-right direction of the vehicle, outputs a warning sound generated by a surround signal such that a sound field corresponding to the approach direction is obtained, thereby providing the driver of the vehicle with a sense of being personally on the scene that the detection target object approaches.

Documents of the prior art

Patent document

Patent document 1: japanese patent laid-open publication No. 2016-151770

Disclosure of Invention

Problems to be solved by the invention

It is desirable to provide a technique for allowing a driver of a vehicle to recognize the type of a detection target object approaching the vehicle.

The present disclosure has been made in view of the above circumstances, and an object thereof is to provide a vehicle, an acoustic control device, and a computer-readable non-transitory recording medium that enable a driver of the vehicle to recognize the type of a detection target object approaching the vehicle.

Means for solving the problems

The disclosed vehicle is provided with a processor having hardware, wherein the processor determines the type of a detection object approaching the vehicle, determines whether or not the detection object is within a predetermined range around the vehicle, and controls the output of a sound corresponding to the type of the detection object when the detection object is within the predetermined range around the vehicle.

The sound control device of the present disclosure includes a processor having hardware, the processor determining a type of a detection object approaching a vehicle, determining whether or not the detection object is within a predetermined range around the vehicle, and controlling output of a sound corresponding to the type of the detection object when the detection object is within the predetermined range around the vehicle.

The computer-readable non-transitory recording medium of the present disclosure causes a processor having hardware to execute processing for determining a type of a detection target object approaching a vehicle, determining whether the detection target object is within a predetermined range around the vehicle, and controlling output of a sound corresponding to the type of the detection target object when it is determined that the detection target object is within the predetermined range around the vehicle.

Effects of the invention

With the present disclosure, the driver of the vehicle can recognize the type of the detection target object approaching the vehicle.

Drawings

Fig. 1 is a block diagram showing a configuration of a vehicle according to an embodiment of the present disclosure.

Fig. 2 is a diagram showing an example of the proximity sound data stored in the proximity sound database shown in fig. 1.

Fig. 3 is a time chart showing a flow of an attention calling process as an embodiment of the present disclosure.

Detailed Description

Hereinafter, a vehicle according to an embodiment of the present disclosure will be described in detail with reference to the drawings.

Structure of the product

First, a structure of a vehicle according to an embodiment of the present disclosure will be described with reference to fig. 1 and 2.

Fig. 1 is a block diagram showing a configuration of a vehicle according to an embodiment of the present disclosure. Fig. 2 is a diagram showing an example of the proximity sound data stored in the proximity sound database 13d shown in fig. 1.

As shown in fig. 1, a Vehicle 1 according to an embodiment of the present disclosure is configured by a known Vehicle such as an EV (Electric Vehicle), an HV (Hybrid Vehicle), or an FCEV (Fuel Cell Electric Vehicle), and includes an external information acquisition unit 11, a Vehicle information acquisition unit 12, an acoustic control device 13, and an HMI (Human Machine Interface) 14.

The vehicle exterior information acquiring unit 11 acquires information relating to the surrounding environment of the vehicle 1 as vehicle exterior information, and outputs an electric signal indicating the acquired vehicle exterior information to the sound control device 13. Specifically, the vehicle exterior information acquiring unit 11 includes a vehicle-mounted camera 11a, a millimeter wave radar 11b, and a communication device 11 c. The vehicle-mounted camera 11a captures an image of the surrounding environment of the vehicle 1, and outputs the captured image data to the acoustic control device 13. The millimeter wave radar 11b detects objects existing in the periphery of the vehicle 1, and measures the position of the detected object, the distance to the detected object, and the relative speed. The millimeter wave radar 11b outputs an electric signal indicating the measured information to the acoustic control device 13. The communication device 11c acquires information indicating the manufacturer and model of another vehicle (four-wheel vehicle, two-wheel vehicle, or the like) and information indicating the speed and position of another vehicle by inter-vehicle communication with another vehicle (four-wheel vehicle, two-wheel vehicle, or the like) present in the periphery of the vehicle 1, and outputs an electric signal indicating the acquired information to the sound control device 13.

The vehicle information acquisition unit 12 acquires various information indicating the state of the vehicle 1 as vehicle information, and outputs an electric signal indicating the acquired vehicle information to the acoustic control device 13. Specifically, the vehicle information acquisition unit 12 includes a speed sensor 12a and a door opening/closing sensor 12 b. The speed sensor 12a measures the traveling speed of the vehicle 1, and outputs an electric signal indicating the measured traveling speed to the acoustic control device 13. The door opening/closing sensor 12b detects the open/close state of the door of the vehicle 1, and outputs an electric signal indicating the open/close state of the door to the sound control device 13.

The sound control device 13 includes a Processor having hardware such as a CPU (Central Processing Unit), a DSP (Digital Signal Processor), and an FPGA (Field-Programmable Gate Array), and a storage Unit such as a RAM (Random Access Memory) and a ROM (Read Only Memory). The sound control device 13 loads a computer program such as a sound control program (computer-readable non-transitory recording medium) stored in the storage unit into a work area of the storage unit, and executes the computer program to function as the proximity determination unit 13a, the category determination unit 13b, and the output control unit 13 c. The functions of the above parts are described later.

The storage unit may be a recording medium fixed to a computer or the like, or a recording medium removable from a computer or the like. As a recording medium fixed to a computer or the like, EPROM (Erasable Programmable ROM) and Hard Disk Drive (HDD) can be exemplified. Examples of the recording medium that can be taken out from a computer or the like include a USB (Universal Serial Bus) Memory, a flexible disk, a magneto-optical disk, a CD-ROM (Compact Disc-Read Only Memory), a CD-RW (Compact Disc-Rewritable), a DVD (Digital Versatile Disc), a BD (Blu-ray Disc), a DAT (Digital Audio Tape), an 8mm Tape reel, and a Memory card. A Solid State Drive (SSD) can be used as a recording medium which can be taken out from a computer or the like, and can also be used as a recording medium which is fixed to a computer or the like.

The acoustic control device 13 includes a proximity acoustic database 13d, and the proximity acoustic database 13d stores proximity acoustic data for each type of detection target object for detecting the approach to the vehicle 1. Examples of the type of the detection target include an automobile, a bicycle, a human, an animal, and the like. In the present embodiment, as shown in fig. 2, the proximity sound database 13d stores, as proximity sound data, sound files of a running sound, an engine sound, and the like that can be heard in the cabin of the vehicle 1 when another vehicle approaches the vehicle 1, for each model and manufacturer of another vehicle (motorcycle, four-wheel vehicle) 2 that detects the approach of the vehicle 1. However, the proximity sound data may be any sound as long as the type of the detection target object can be distinguished.

The HMI14 is configured from an image display device, a voice output device, and the like, and outputs an image and a voice that can be recognized by the driver of the vehicle 1. In the present embodiment, HMI14 outputs various sounds to the cabin of vehicle 1 in accordance with a control signal from acoustic control device 13.

In the vehicle 1 having such a configuration, the acoustic control device 3 executes the following attention calling process, so that the driver of the vehicle 1 can easily recognize the type of the detection target object approaching the vehicle 1. Hereinafter, the operation of the sound control device 3 when the attention calling process is executed will be described with reference to fig. 3.

Attention calling process

Fig. 3 is a time chart showing a flow of an attention calling process as an embodiment of the present disclosure. The time chart shown in fig. 3 starts at the timing when the ignition switch of the vehicle 1 is switched from the off state to the on state, and the attention calling-up process proceeds to the process of step S1. This attention calling process is repeatedly executed every time a predetermined time elapses after the previous attention calling process is ended while the ignition switch of the vehicle 1 is in the on state. The following operations of the acoustic control device 13 are realized by causing the acoustic control device 13 to execute a computer program.

In the processing of step S1, sound control device 13 receives information indicating the manufacturer and model of another vehicle 2 present around vehicle 1 and information indicating the speed and position of another vehicle 2 by vehicle-to-vehicle communication using communication device 11 c. Thus, the process at step S1 is completed, and the attention calling process proceeds to the process at step S2.

In the processing of step S2, the proximity determination unit 13a determines whether or not the other vehicle 2 has entered a predetermined range around the vehicle 1 based on the information received in the processing of step S1. As a result of the discrimination, when the other vehicle 2 enters within the predetermined range around the vehicle 1 (yes in step S2), the proximity determination unit 13a advances the attention calling process to the process of step S3. On the other hand, when the other vehicle 2 does not enter the predetermined range around the vehicle 1 (no in step S2), the proximity determination unit 13a ends the series of attention calling processes.

In the processing of step S3, the category determination unit 13b determines the manufacturer and model of another vehicle 2 that enters a predetermined range around the vehicle 1, based on the information received in the processing of step S1. Then, the output control unit 13c reads out the proximity sound data corresponding to the manufacturer and the model of the other vehicle 2 determined by the type determination unit 13b from the proximity sound database 13 d. Thus, the process at step S3 is completed, and the attention calling process proceeds to the process at step S4.

In the process of step S4, the output control unit 13c outputs the proximity sound data into the vehicle cabin in accordance with the manufacturer and model of the other vehicle read out in the process of step S3 by controlling the HMI 14. With such processing, the driver of the vehicle 1 can easily determine the type of the detection target object approaching the vehicle 1. Thus, the process of step S4 is completed, and the series of attention calling processes is ended.

As is clear from the above description, the vehicle 1 according to the embodiment of the present disclosure includes the proximity determination unit 13a, the type determination unit 13b, and the output control unit 13c, the proximity determination unit 13a determines whether or not the detection target object has entered the predetermined range around the vehicle 1, the type determination unit 13b determines the type of the detection target object, and the output control unit 13c outputs the sound corresponding to the type of the detection target object determined by the type determination unit 13b when the proximity determination unit 13a determines that the detection target object has entered the predetermined range around the vehicle 1, so that the driver of the vehicle 1 can easily recognize the type of the detection target object approaching the vehicle 1.

Further, the output control unit 13c preferably increases the volume of the sound in accordance with the decrease in the distance between the vehicle 1 and the detection target object. With such processing, the driver of the vehicle 1 can easily recognize the approach of the detection target object to the vehicle 1.

The proximity determination unit 13a may determine whether or not the detection target object has entered a preset blind area range of the driver of the vehicle 1, and the output control unit 13c may output the sound corresponding to the type of the detection target object determined by the type determination unit 13b when the proximity determination unit 13a determines that the detection target object has entered the preset blind area range of the driver of the vehicle 1. The driver's blind area range can be set using known techniques.

Further, the output control unit 13c may output a sound corresponding to the type of the detection target object determined by the type determination unit 13b when the speed at which the detection target object approaches the vehicle 1 is equal to or higher than the 1 st predetermined value. When the speed of the detection target object approaching the vehicle 1 changes by a value equal to or greater than the 2 nd predetermined value (i.e., the 2 nd predetermined value or more changes した), the output control unit 13c may output a sound corresponding to the type of the detection target object determined by the type determination unit 13 b.

Further, when the door open/close sensor 12b detects the open state of the door of the vehicle 1, the proximity determination unit 13a may determine whether or not the detection target object has entered a preset door blind area range, and the output control unit 13c may output the sound corresponding to the type of the detection target object determined by the type determination unit 13b when the proximity determination unit 13a determines that the detection target object has entered the preset door blind area range.

The acoustic control device 13 may set the detection target object reflected on the side mirror or the rear-view mirror of the vehicle 1 as a target object other than the processing target object. Thus, although the driver can visually confirm the detection target object using the side mirror and the rear-view mirror of the vehicle 1, it is possible to suppress the output of the sound corresponding to the type of the detection target object.

Further effects and modifications can be easily derived by those skilled in the art. The broader aspects of the present disclosure are not limited to the specific detailed and representative embodiments shown and described above. Accordingly, various modifications may be made without departing from the spirit or scope of the general disclosed concept as defined by the appended claims and their equivalents.

Description of the reference numerals

1. A vehicle; 11. an outside-vehicle information acquisition unit; 11a, an in-vehicle camera; 11b, millimeter wave radar; 11c, a communicator; 12. a vehicle information acquisition unit; 12a, a speed sensor; 12b, a door opening/closing sensor; 13. a sound control device; 13a, a proximity determination unit; 13b, a category determination unit; 13c, an output control unit; 13d, a proximity sound database; 14. HMI (Human Machine Interface, Human-computer Interface)

Claims

1. A vehicle, wherein,

the vehicle is provided with a processor having hardware,

the processor determines a type of a detection object approaching a vehicle, determines whether or not the detection object is within a predetermined range around the vehicle, and controls output of a sound corresponding to the type of the detection object when the detection object is within the predetermined range around the vehicle.

2. The vehicle according to claim 1, wherein,

the processor increases the volume of the sound in correspondence with a decrease in the distance between the vehicle and the detection target object.

3. The vehicle according to claim 1 or 2,

the detection target object is another vehicle present in the periphery of the vehicle,

the processor determines the category of the other vehicle using inter-vehicle communication.

4. The vehicle according to any one of claims 1 to 3,

the vehicle is provided with a database in which sound data for each type of the detection target object is stored,

the processor reads out the acoustic data corresponding to the type of the detection target object from the database, and outputs the read-out acoustic data.

5. The vehicle according to any one of claims 1 to 4,

the prescribed range around the vehicle includes a blind area range of a driver of the vehicle.

6. The vehicle according to any one of claims 1 to 5,

the processor controls output of a sound corresponding to a type of the detection target object when a speed at which the detection target object approaches the vehicle is equal to or higher than a 1 st predetermined value.

7. The vehicle according to claim 6, wherein,

the processor controls output of a sound corresponding to the type of the detection target object when the speed change is equal to or greater than a 2 nd predetermined value.

8. An acoustic control device, wherein,

the sound control device is provided with a processor having hardware,

9. The sound control device according to claim 8,

10. The sound control device according to claim 8 or 9,

11. The sound control device according to any one of claims 8 to 10,

the sound control device includes a database storing sound data for each type of the detection target object,

the processor reads out the sound data corresponding to the type of the detection target object from the database, and outputs the read-out sound data.

12. The sound control device according to any one of claims 8 to 11,

13. The sound control device according to any one of claims 8 to 12,

14. The sound control device according to claim 13,

15. A computer-readable non-transitory recording medium, wherein,

the computer-readable non-transitory recording medium has recorded thereon a program that causes a processor to execute: the method includes determining a type of a detection object approaching a vehicle, determining whether the detection object is within a predetermined range around the vehicle, and controlling output of a sound corresponding to the type of the detection object when the detection object is determined to be within the predetermined range around the vehicle.

16. The computer-readable non-transitory recording medium of claim 15,

the program causes the processor to execute: the volume of the sound is increased in accordance with a decrease in the distance between the vehicle and the detection target object.

17. The computer-readable non-transitory recording medium of claim 15,

the detection target object is another vehicle present in the periphery of the vehicle, and the program causes the processor to execute: the category of the other vehicle is judged using inter-vehicle communication.

18. The computer-readable non-transitory recording medium of claim 15,

the program causes the processor to execute: when it is determined that the detection object has entered the predetermined range, sound data corresponding to the type of the detection object is read from a database in which sound data for each type of the detection object is stored, and the read sound data is output.

19. The computer-readable non-transitory recording medium of claim 15,

the prescribed range includes a blind area range of a driver of the vehicle.

20. The computer-readable non-transitory recording medium of claim 15,

the program causes the processor to execute: and controlling the output of the sound corresponding to the type of the detection object when the speed of the detection object approaching the vehicle is more than or equal to a 1 st predetermined value.